蟾蜍膀胱顶端膜中钙敏感阳离子选择性通道的激活与阻断

Activation and blockage of a calcium-sensitive cation-selective pathway in the apical membrane of toad urinary bladder.

作者信息

Aelvoet I, Erlij D, Van Driessche W

机构信息

Laboratorium voor Fysiologie, KU Leuven, Campus Gasthuisberg, Belgium.

出版信息

J Physiol. 1988 Apr;398:555-74. doi: 10.1113/jphysiol.1988.sp017057.

DOI:10.1113/jphysiol.1988.sp017057

PMID:2455802

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1191787/

Abstract

The properties of cation movements through a previously described Ca2+-sensitive oxytocin-stimulated pathway in the apical membrane of the toad urinary bladder were further investigated. 2. In the absence of Ca2+ and other polyvalent cations in the mucosal medium, oxytocin markedly stimulated the flow of current from mucosa to serosa when the major cation in the mucosal solution was any of the following ions: Na+, K+, Rb+, Cs+ or Li+. Analysis of the current noise showed a Lorentzian component associated with the movement of these cations. 3. Ca2+ and other divalent cations in the mucosal solution depressed both the current and the Lorentzian component of the fluctuation spectra. The Michaelis-Menten constants were 2.5, 10 and 58 mumol/l for Ca2+, Sr2+ and Mg2+ respectively. 4. The dihydropyridine Ca2+ channel blockers nitrendipine (10(-5) mol/l) and nicardipine (10(-6) mol/l) inhibited the Ca2+-sensitive current. 5. Alterations of the mucosal pH showed that the current and the plateau of the Lorentzian component increased by elevating the pH from 6 to 8. The Ca2+-sensitive current was further stimulated by increasing pH to 9. However, this manoeuvre resulted in the disappearance of the Lorentzian component in the noise spectrum. 6. Increasing either mucosal [Na+] or [K+] up to 115 mmol/l did not lead to saturation of the current passing through the Ca2+-sensitive channel. In contrast the amiloride-sensitive channel showed saturating behaviour when mucosal [Na+] was increased; half-maximum current was reached when mucosal [Na+] was about 15 mmol/l. 7. When a Na+-free mucosal solution, prepared with either choline or TEA as major cation, was rapidly replaced by a solution with Na+ (115 mmol/l), the current through the Ca2+-sensitive channel increased rapidly and then remained at a nearly constant level. This behaviour is in contrast with the response of the current through the amiloride-sensitive pathway. After suddenly increasing mucosal Na+ concentration ([Na+]m), the current through this channel first increased rapidly and then declined to values of nearly 50% of the peak about 10 min after the increase in [Na+]m.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

我们进一步研究了阳离子通过蟾蜍膀胱顶端膜中先前描述的钙敏感催产素刺激途径的运动特性。2. 在黏膜介质中不存在钙离子和其他多价阳离子的情况下，当黏膜溶液中的主要阳离子为以下任何一种离子：钠离子、钾离子、铷离子、铯离子或锂离子时，催产素显著刺激了从黏膜到浆膜的电流流动。对电流噪声的分析显示出与这些阳离子运动相关的洛伦兹分量。3. 黏膜溶液中的钙离子和其他二价阳离子降低了电流以及波动光谱的洛伦兹分量。钙离子、锶离子和镁离子的米氏常数分别为2.5、10和58微摩尔/升。4. 二氢吡啶类钙通道阻滞剂尼群地平（10⁻⁵摩尔/升）和尼卡地平（10⁻⁶摩尔/升）抑制了钙敏感电流。5. 黏膜pH值的改变表明，将pH值从6提高到8时，电流和洛伦兹分量的平台期增加。将pH值提高到9进一步刺激了钙敏感电流。然而，这一操作导致噪声光谱中的洛伦兹分量消失。6. 将黏膜中的钠离子或钾离子浓度提高到115毫摩尔/升，并不会使通过钙敏感通道的电流饱和。相比之下，当黏膜中的钠离子浓度增加时，氨氯地平敏感通道表现出饱和行为；当黏膜中的钠离子浓度约为15毫摩尔/升时，达到最大电流的一半。7. 当用胆碱或TEA作为主要阳离子制备的无钠黏膜溶液迅速被含钠离子（115毫摩尔/升）的溶液取代时，通过钙敏感通道的电流迅速增加，然后保持在几乎恒定的水平。这种行为与通过氨氯地平敏感途径的电流响应形成对比。突然增加黏膜钠离子浓度（[Na⁺]m）后，通过该通道的电流首先迅速增加，然后在[Na⁺]m增加约10分钟后下降到峰值的近50%。